Chapter 9.1, Problem 44PPS

a.

To determine

To decipher whether the function has a maximum or minimum value.

Answer to Problem 44PPS

The given function has a minimum value.

Explanation of Solution

Given information :

The function provided is $y=x^2+4x-5$ .

For the function $y=x^2+4x-5$ , the coefficients are $a=1$ , $b=4$ and $c=-5$ .

Since the coefficient of ‘a’ is positive, the curve of this function is upward facing and hence the function has a minimum value.

b.

To determine

To determine the maximum or minimum value of the given function.

Answer to Problem 44PPS

The function is minimum at - 9 .

Explanation of Solution

Given information :

The function provided is $y=x^2+4x-5$ .

Formula used :

Formula to compute the x-coordinate of the vertex is $x=-\frac{b}{2\times a}$ . Here, $a=1$ and $b=4$ . ‘a’ and ‘b’ are coefficients $x^2$ and $x$ respectively. The corresponding value of ‘y’ for the vertex would be the maximum or minimum.

Calculation :

Since the coefficient of ‘a’ is positive, the curve of this function is upward facing and hence the function has a minimum value.

X-coordinate of the vertex is

  $x=-\frac{b}{2\times a}$

Formula for axis of symmetry.

  $x=-\frac{4}{2\times \left(1\right)}$

Putting the values of ‘a’ and ‘b’ .

  $=\frac{-4}{2}$

Simplifying

  $x=-2$

Vertex can be found out by putting the value of x computed in the axis of symmetry in the original function. This will give a value of y , that will be the maximum.

  $={\left(-2\right)}^2+4\left(-2\right)-5$

Putting the value of $x=-2$ in the original function.

  $=4-8-5$

Simplifying the expression.

  $=-9$

Thus, the minimum is at - 9 .

c.

To determine

To calculate the domain and range for the given function.

Answer to Problem 44PPS

The domain is all real numbers, that is, $\left\{-\infty <x<\infty \right\}$ and range is all values lesser than or equal to 1 , that is, $\left\{y|y\ge -9\right\}$ .

Explanation of Solution

Given information :

The function provided is $y=x^2+4x-5$ .

Formula used :

Formula to compute the x-coordinate of the vertex is $x=-\frac{b}{2\times a}$ . Here, $a=1$ and $b=4$ . ‘a’ and ‘b’ are coefficients $x^2$ and $x$ respectively. The corresponding value of ‘y’ for the vertex would be the maximum or minimum.

Calculation :

Since the coefficient of ‘a’ is positive, the curve of this function is upward facing and hence the function has a minimum value.

X-coordinate of the vertex is

  $x=-\frac{b}{2\times a}$

Formula for axis of symmetry.

  $x=-\frac{4}{2\times \left(1\right)}$

Putting the values of ‘a’ and ‘b’ .

  $=\frac{-4}{2}$

Simplifying

  $x=-2$

Vertex can be found out by putting the value of x computed in the axis of symmetry in the original function. This will give a value of y , that will be the maximum.

  $={\left(-2\right)}^2+4\left(-2\right)-5$

Putting the value of $x=-2$ in the original function.

  $=4-8-5$

Simplifying the expression.

  $=-9$

Thus, the minimum is at - 9 .

Since x can take up any real values, the range is $\left\{-\infty <x<\infty \right\}$ .

Since the domain is the values of y, it can only take up values lesser than or equal to the maximum. That is, $\left\{y|y\ge -9\right\}$ .